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I was working on some project involving regex and suddenly encountered a regex literal which looks like this:

/ab+c/g

I know that in programming languages there are some fixed list of possible literals, like in C language integer, float etc.

Then I searched for the list of literals supported in javascript but could not found satisfactory answer.

I experimented with node prompt and got following interesting results:

> typeof /ab+c/g
'object'
> str = 'xyz'
'xyz'
> typeof `abc ${str}`
'string'
> typeof function f(x, y) {
... return x + y;
... }
'function'
> typeof {
... 'a': 'b'
... }
'object'

This proves that

  • regex literal is essentially object literal
  • template literal is essentially string literal
  • function literal is function literal
  • javascript object literal is object literal

Even though last one is okay and defined in many places but it doesn't make sense to me that regex literal is still object literal.

Where is it written? How can I find out list of possible literals in javascript?

  • 1
    A regex literal results in an object instance. Because virtually everything is an object in Javascript. That does not make a regex literal an object literal. – deceze Sep 10 at 13:34
  • 1
    No, a regex literal is not “essentially an object literal”. RegExps are objects, but they have nearly no overlap with object literals in how they’re used. – Ry- Sep 10 at 13:35
  • So regex literal is not a literal at all? – Kartoos Sep 10 at 13:36
  • 1
    A regex literal is definitely a literal, but an “object literal” means {foo: 'bar', …}. – Ry- Sep 10 at 13:39
  • 1
    I am more confused now as to what a literal should mean! In C language world, it is a constant and there are just fixed number of possible types of those constants which can be stored in some variable with datatype – Kartoos Sep 10 at 13:45
4

Take a look at appendix A of the spec and you'll find definitions of StringLiteral, etc. Btw, the spec uses FunctionExpression, not FunctionLiteral.

Also relevant is 11.8 Literals. Thereunder are

  • NullLiteral ::== null
  • BooleanLiteral ::== true | false
  • NumberLiteral
  • RegularExpressionLiteral
  • StringLiteral
  • TemplateLiteral components.

Notably, undefined is not a literal.

As that section makes clear, "literal" refers to abbreviated syntax, and does not relate to any object/primitive distinction.

Elsewhere in the text (chapter 12 PrimaryExpression) you'll see terms like ObjectLiteral and ArrayLiteral but those are also referred to as {Object,Array}Initializers.

  • your source is quite good! Thanks – Kartoos Sep 10 at 13:51
  • Can i say that some literals are used for creating objects as in ArrayLiteral while some are not? – Kartoos Sep 10 at 14:08
  • OR ObjectLiteral and ArrayLiteral are not literals at all? – Kartoos Sep 10 at 14:16
  • @Kartoos, Depends how you define terms. If by "literal" you mean abbreviated syntax for specifying a value, then they're literals. If you define "literal" as a simple kind of expression, then ObjectInitializers and TemplateStrings are not literal because they can embed arbitrarily complicated expressions. I don't know of a definition that language designers broadly agree upon; language debates I've been part of tend to focus on whether "syntactic sugar" would help or hurt instead of whether something is or isn't a literal. – Mike Samuel Sep 10 at 15:42
  • I am accepting your answer since you have given me official link to documentation regarding these concepts although it is still interesting to see that even language designers are not strict about its definition either. I will just consider whatever is there in the documentation as the official definition. – Kartoos Sep 11 at 6:49
1

You might avoid thinking too hard about typeof results. While occasionally useful for determining what kind of value a variable holds, it's not really same as the object type in the sense you know it in C or OOP languages.

Observe:

typeof (()=>{})
> "function"
(()=>{}) instanceof Object
> true

Also:

typeof ""
> "string"
typeof new String("")
> "object"
"" instanceof String
> false

To answer your main question, there are the following literals:

  • ()=>{} lambda literal
    • typeof ()=>{} == "function"
  • function() {} function literal
    • typeof function() {} == "function"
  • "" string literal
    • typeof "" == "string"
  • `` string template literal
    • typeof `` == "string"
  • 42 number literal
    • typeof 42 == "number"
  • /x/ RegExp literal
    • typeof /x/ == "object"
  • [] array literal
    • typeof [] == "object"
  • false boolean literal
    • typeof false == "boolean"
  • null literal for null object, note that
    • typeof null == "object"
  • {} and object literal
    • typeof {} == "object"

Of all those, only string literals and number literals have value instanceof Object == false. The rest is all instance of object.

The caveats in typeof and instanceof are important when writing code that may receive various types. Generally typeof logic is:

  • Is it a raw string (not new String)? - return "string"
  • Is it a raw number? - return "number"
  • Is it raw boolean? - return "boolean"
  • Is it undefined (note that null is not undefined!) - return "undefined"
  • Is it a function? - return "function"
  • Otherwise return "object"
  • Thanks for the answer! So typeof is not the correct way to evaluate literals but can be used for variables? – Kartoos Sep 10 at 13:55
  • Unless you do crazy things like the mentioned new String(), you may use typeof to distinguish between the basic types and objects. For objects, you then want to use instanceof to distinguish each. It's best to write the code as if it was hard typed like C, then you don't have to worry so much. But one typical use of typeof is a function that may accept a single string or an array of strings. – Tomáš Zato Sep 10 at 13:57
  • @Kartoos You're never evaluating literals, ever. You can't. The literal is parsed and compiled into a runtime object. You can only ever inspect the runtime object that resulted from the literal. – deceze Sep 10 at 13:57
  • @deceze So your point is literals ultimately convert into objects at runtime? like 1.2f in C language will convert to floating datatype object ultimately Right? – Kartoos Sep 10 at 14:06
  • @Kartoos Yes, exactly. – deceze Sep 10 at 14:41

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